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Global emission reductions through a sectoral intensity target scheme

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Listed:
  • KEIGO AKIMOTO
  • FUMINORI SANO
  • JUNICHIRO ODA
  • TAKASHI HOMMA
  • ULLASH KUMAR ROUT
  • TOSHIMASA TOMODA

Abstract

If dangerous climatic change is to be avoided, all countries will need to contribute to reductions in greenhouse gas emissions on the basis of equity and in accordance with their common but differentiated responsibilities and respective capabilities. This article discusses the gap between the past (ideal) model analysis for emission reductions and realistic policies. A key requirement for successful policies is their acceptance by as many countries as possible and their ease of practical implementation. The sectoral intensity approach has been proposed for its focus on tangible, practical actions; however, its emission reduction effects have been said to be ambiguous and difficult to evaluate quantitatively. The effects of global emission reduction based upon a sectoral approach to energy and carbon intensity targets are evaluated using an energy systems model with a high regional resolution and a detailed description of technology. This analysis found that deep emission cuts can be achieved by a sectoral approach, provided that developed and developing countries collaborate towards emission cuts under the proposed framework. This framework has a higher potential for agreement by both developed and developing countries.

Suggested Citation

  • Keigo Akimoto & Fuminori Sano & Junichiro Oda & Takashi Homma & Ullash Kumar Rout & Toshimasa Tomoda, 2008. "Global emission reductions through a sectoral intensity target scheme," Climate Policy, Taylor & Francis Journals, vol. 8(sup1), pages 46-59, December.
    • Handle: RePEc:taf:tcpoxx:v:8:y:2008:i:sup1:p:s46-s59
    DOI: 10.3763/cpol.2007.0492
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    1. Richard S.J. Tol, 2002. "Technology Protocols For Climate Change: An Application Of Fund," Working Papers FNU-14, Research unit Sustainability and Global Change, Hamburg University, revised Sep 2002.
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    1. Rout, Ullash K. & Akimoto, Keigo & Sano, Fuminori & Tomoda, Toshimasa, 2010. "Introduction of subsidisation in nascent climate-friendly learning technologies and evaluation of its effectiveness," Energy Policy, Elsevier, vol. 38(1), pages 520-532, January.
    2. Wada, Kenichi & Sano, Fuminori & Akimoto, Keigo & Homma, Takashi, 2012. "Assessment of Copenhagen pledges with long-term implications," Energy Economics, Elsevier, vol. 34(S3), pages 481-486.
    3. Feng, Y.Y. & Chen, S.Q. & Zhang, L.X., 2013. "System dynamics modeling for urban energy consumption and CO2 emissions: A case study of Beijing, China," Ecological Modelling, Elsevier, vol. 252(C), pages 44-52.
    4. Rout, Ullash K., 2011. "Prospects of India's energy and emissions for a long time frame," Energy Policy, Elsevier, vol. 39(9), pages 5647-5663, September.
    5. Liu, Xiaoping & Ou, Jinpei & Chen, Yimin & Wang, Shaojian & Li, Xia & Jiao, Limin & Liu, Yaolin, 2019. "Scenario simulation of urban energy-related CO2 emissions by coupling the socioeconomic factors and spatial structures," Applied Energy, Elsevier, vol. 238(C), pages 1163-1178.
    6. Rout, Ullash K. & Blesl, Markus & Fahl, Ulrich & Remme, Uwe & Voß, Alfred, 2009. "Uncertainty in the learning rates of energy technologies: An experiment in a global multi-regional energy system model," Energy Policy, Elsevier, vol. 37(11), pages 4927-4942, November.
    7. Wada, Kenichi & Akimoto, Keigo & Sano, Fuminori & Oda, Junichiro & Homma, Takashi, 2012. "Energy efficiency opportunities in the residential sector and their feasibility," Energy, Elsevier, vol. 48(1), pages 5-10.
    8. Weidong Chen & Qing He, 2016. "Intersectoral burden sharing of CO 2 mitigation in China in 2020," Mitigation and Adaptation Strategies for Global Change, Springer, vol. 21(1), pages 1-14, January.
    9. Eboli, Fabio & Parrado, Ramiro & Roson, Roberto, 2008. "Climate Change Feedback on Economic Growth: Explorations with a Dynamic General Equilibrium Model," Conference papers 331756, Purdue University, Center for Global Trade Analysis, Global Trade Analysis Project.
    10. Joseph E. Aldy & William A. Pizer & Keigo Akimoto, 2017. "Comparing emissions mitigation efforts across countries," Climate Policy, Taylor & Francis Journals, vol. 17(4), pages 501-515, May.
    11. Akimoto, Keigo & Sano, Fuminori & Homma, Takashi & Oda, Junichiro & Nagashima, Miyuki & Kii, Masanobu, 2010. "Estimates of GHG emission reduction potential by country, sector, and cost," Energy Policy, Elsevier, vol. 38(7), pages 3384-3393, July.
    12. Aldy, Joseph E. & Pizer, William A. & Akimoto, Keigo, 2015. "A natural outcome of the emerging pledge and review approach to international climate change policy is the interest in comparing mitigation efforts among countries. Domestic publics and stakeholders w," RFF Working Paper Series dp-15-32, Resources for the Future.
    13. Sano, Fuminori & Wada, Kenichi & Akimoto, Keigo & Oda, Junichiro, 2015. "Assessments of GHG emission reduction scenarios of different levels and different short-term pledges through macro- and sectoral decomposition analyses," Technological Forecasting and Social Change, Elsevier, vol. 90(PA), pages 153-165.
    14. Rout, Ullash K. & Voβ, Alfred & Singh, Anoop & Fahl, Ulrich & Blesl, Markus & Ó Gallachóir, Brian P., 2011. "Energy and emissions forecast of China over a long-time horizon," Energy, Elsevier, vol. 36(1), pages 1-11.
    15. Keigo Akimoto & Fuminori Sano & Ayami Hayashi & Takashi Homma & Junichiro Oda & Kenichi Wada & Miyuki Nagashima & Kohko Tokushige & Toshimasa Tomoda, 2012. "Consistent assessments of pathways toward sustainable development and climate stabilization," Natural Resources Forum, Blackwell Publishing, vol. 36(4), pages 231-244, November.
    16. Hiromi Yamamoto & Masahiro Sugiyama & Junichi Tsutsui, 2014. "Role of end-use technologies in long-term GHG reduction scenarios developed with the BET model," Climatic Change, Springer, vol. 123(3), pages 583-596, April.

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